Autor: |
Nag, Anindya, Chakraborthy, Aniket, Ortega Vega, Maria Rita, Nuthalapati, Suresh, Harija, H., Ozer, Mehmet Sait, Altinsoy, Mehmet Ercan |
Zdroj: |
IEEE Sensors Journal; December 2023, Vol. 23 Issue: 23 p28640-28648, 9p |
Abstrakt: |
The significance of fabric sensors has been growing simultaneously with the impact of wearable sensing applications. Different types of fabrics have been employed to develop thin-film sensors for multiple applications. This article highlights the fabrication and implementation of polyester fabric/graphene-based sensors for strain and acoustic applications. Conductive composite structures were formed by dip-coating polyester fabric into aqueous graphene dispersions with defined cycles. These sensors were piezoresistive in nature, characterized and utilized to sense strain-induced tactile motion. Due to their vibrational nature, they were also deployed to detect acoustic signals, thus validating their potential for multifunctional strain-sensing applications. These results serve as a podium to develop flexible graphene/fabric-based sensors for multifunctional strain-induced applications. |
Databáze: |
Supplemental Index |
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